Translator Disclaimer
1 July 2006 Protection of DNA against Direct Radiation Damage by Complex Formation with Positively Charged Polypeptides
Author Affiliations +
Abstract

Roginskaya, M., Bernhard, W. A. and Razskazovskiy, Y. Protection of DNA against Direct Radiation Damage by Complex Formation with Positively Charged Polypeptides. Radiat. Res. 166, 9–18 (2006).

Radioprotection of DNA from direct-type radiation damage by histones has been studied in model systems using complexes of positively charged polypeptides (PCPs) with DNA. PCPs bind to DNA via ionic interactions mimicking the mode of DNA-histone binding. Direct radiation damage to DNA in films of DNA-PCP complexes was quantified as unaltered base release, which correlates closely with DNA strand breaks. All types of PCPs tested protected DNA from radiation, with the maximum radioprotection being approximately 2.5-fold compared with non-complexed DNA. Conformational changes of the DNA induced by PCPs or repair of free radical damage on the DNA sugar moiety by PCPs are considered the most feasible mechanisms of radioprotection of DNA. The degree of radioprotection of DNA by polylysine (PL) increased dramatically on going from pure DNA to a molar ratio of PL monomer:DNA nucleotide ∼1:2, while a further increase in the PL:DNA ratio did not offer more radioprotection. This concentration dependence is in agreement with the model of PCP binding to DNA that assumes preferential binding of positively charged side groups to DNA phosphates in the minor groove, so that the maximum occupancy of all minor-groove PCP binding sites is at a molar ratio of PCP:DNA = 1:2.

Marina Roginskaya, William A. Bernhard, and Yuriy Razskazovskiy "Protection of DNA against Direct Radiation Damage by Complex Formation with Positively Charged Polypeptides," Radiation Research 166(1), 9-18, (1 July 2006). https://doi.org/10.1667/RR3571.1
Received: 30 November 2005; Accepted: 1 February 2006; Published: 1 July 2006
JOURNAL ARTICLE
10 PAGES


SHARE
ARTICLE IMPACT
RIGHTS & PERMISSIONS
Get copyright permission
Back to Top